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Kinematic control of redundant free-floating robotic systems

Fabrizio Caccavale, Bruno Siciliano

发表年份
2001
引用次数
54

摘要

This paper is aimed at presenting solution algorithms to the inverse kinematics of a space manipulator mounted on a free-floating spacecraft. The reaction effects of the manipulator's motion on the spacecraft are taken into account by means of the so-called generalized Jacobian. Redundancy of the system with respect to the number of task variables for spacecraft attitude and manipulator end-effector pose is considered. Also, the problem of both spacecraft attitude and end-effector orientation representation is tackled by means of a non-minimal singularity-free representation: the unit quaternion. Depending on the nature of the task for the spacecraft/manipulator system, a number of closed-loop inverse kinematics algorithms are proposed. Case studies are developed for a system of a spacecraft with a six-joint manipulator attached.

关键词

SpacecraftKinematicsQuaternionJacobian matrix and determinantControl theory (sociology)Serial manipulatorInverse kinematicsRobot end effectorComputer scienceKinematics equations

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